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Effects of Sintered Metal Diesel Particulate Filter System on Diesel Aerosols and Nitric Oxides in Mine Air. By Aleksandar Bugarski, George H. Schnakenberg, & Emanuele Cauda. Introduction.
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Effects of Sintered Metal Diesel Particulate Filter System on Diesel Aerosols and Nitric Oxides in Mine Air By Aleksandar Bugarski, George H. Schnakenberg, & Emanuele Cauda 12th U.S./North American MVS, Reno, Nevada, June 9-11, 2008
Introduction • Diesel particulate matter (DPM) and generally nanometer and ultra fine aerosols are shown to have acute and chronic health effects: • DPM declared by NIOSH [1988] as a “potential” carcinogen; • Long-term exposure to combustion-related fine particulate air pollution is an important environmental risk factor for cardiopulmonary and lung cancer mortality [Pope et al. 2002]. • MSHA regulations (2001): • 30 CFR Part 57.5060 - Diesel Particulate Matter Exposure of Underground Metal and Nonmetal Miners; • 30 CFR Part 72 - Diesel Particulate Matter Exposure of Underground Coal Miners. • Industry is working on identifying technically and economically feasible control technologies to reduce exposure of underground miners and other workers to diesel particulate matter (DPM) and gases.
Introduction • NIOSH is assisting industry and MSHA by conducting research related to establishing potential of various control technologies and strategies to control exposure of underground miners to nano and ultrafine aerosols and regulated and unregulated gases emitted by diesel engines and by facilitating the application of current and evolving diesel emission control technologies into underground mines: • diesel particulate filter (DPF) systems, • filtration systems with high temperature disposable filter elements (DFEs), • diesel catalytic converters (DOCs), • biodiesel …
Diesel Emissions • Diesel particulate matter is complex mixture of nano and ultrafine aerosols present in liquid and solid phase. • Regulated gases: CO, CO2, NO, and NO2 • Unregulated gases: PAH…
Methodology • Characterization of DPM in occupational setting: • NIOSH Mobile Engine Emissions Laboratory (MEEL) at Lake Lynn Laboratory (LLL) • Avoid laboratory uncertainties introduced with various simulations of processes • Bridge gap between inherently inaccurate field and unrealistic laboratory experiments • LLL offers unique environment for field testing with laboratory accuracy.
NIOSH Lake Lynn Laboratory (LLL) Portal E Drift Ventilation Shaft D Drift
Engine/Dynamometer Systems:150 kW Dynamometer Coupled to Isuzu C240 Engine
InstrumentationDownstream Sampling and Measurement Station SMPS TEOM ELPI
InstrumentationDownstream and Tailpipe Sampling and Measurement Stations CLD & NDIR NDIR
Diesel Particulate FiltersSintered Metal Filters • Electro conductive • High porosity • Low back pressure • Withstands high temperatures • Heats up fast (low thermal mass)
Other Evaluated DPF Systems Cordierite DPF SiC DPFs
High-Temperature Disposable Filter Elements (DFE) Integrated in the Filtration System with Dry Heat Exchanger DFE in the canister
Diesel Oxidation Catalytic Converter and Muffler Muffler DOC
Results • Effects of the system on size distribution of diesel aerosols in mine air • Effects of the system on total aerosol number and mass concentrations • Effects of the system on NOx concentrations
Size Distributions Measured with SMPSs at Downstream and Upstream Stations During Sintered Metal DPF System Evaluation
Size Distributions Measured with SMPSs at Downstream and Upstream Stations During Sintered Metal DPF System Evaluation
Size Distributions Measured with SMPSs at Upstream Stations During Sintered Metal DPF System Tests
Size Distributions Measured with SMPSs at Downstream Stations
Effects of the System on Total Aerosol Number and Mass Concentrations:
Effect of Sintered DPF System on Percentage of NO2 in total NOx
Size Distribution of Aerosols Measured at Downstream Station: R50
Size Distribution of Aerosols Measured at Downstream Station: I50
Size Distribution of Aerosols Measured at Downstream Station: R100
Results Indicate Strong Relationship between Size Distributions and Exhaust Temperatures
Effects of Control Technologies on Total Aerosol Number and Mass Concentrations: R50
Effects of Control Technologies on Total Aerosol Number and Mass Concentrations: I50
Effects of Control Technologies on Total Aerosol Number and Mass Concentrations: R100
Effects of Control Technologies on Total Aerosol Number and Mass Concentrations: I100
Conclusion • The effects of the SM DPF system on number and mass concentrations were found to be engine operating mode dependent. • A 10-fold reductions in total mass concentrations as measured by TEOM were observed for the two low-power R50 and I50 modes. • The corresponding reductions were more than 20-fold at R100 and then more than 100-fold for I100 conditions. • In the R50 and I50 mode cases total mass reductions were accompanied with approximately 20-fold reductions in total number concentrations. • I the cases of R100 and R100 high concentrations of nucleation particles resulted in significantly lower reductions or even an increase in total particle number.
Conclusion • The SM DPF system and muffler were found to have comparable effects on NOx concentrations for all four modes. • The percentages of NO2 in total NOX are found to be strongly dependent on engine operation mode / exhaust temperature. • The system consistently produced lower NO2 fractions them muffler for all four modes.
The findings and conclusion of this publication have not been formally disseminated by the National Institute for Occupational Safety and Health and should not be constituted to represent any agency determination or policy. Mention of any company or product does not constitute endorsement by NIOSH. Thank you for your attention!!!
